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Ant diversity across an elevational gradient; functional versus taxonomic perspectives in the Soutpansberg Mountains, South AfricaMunyai, Thinandavha Caswell 05 1900 (has links)
PhDENV / Department of Ecology and Resource Management / See the attached abstract below
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Ant and spider diversity in a rural landscape of the Vhembe Biosphere, South AfricaMauda, Evans Vusani 18 September 2017 (has links)
MSc (Zoology) / Department of Zoology / See the attached abstract below
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A functional and trait-based approach in understanding ant community assembly in the Soutpansberg Mountains, South AfricaMuluvhahothe, Mulalo Meriam 18 May 2018 (has links)
MSc (Zoology) / Department of Zoology / The concept of taxonomic diversity has been widely used to investigate diversity patterns and the mechanism underlying community assembly. However, functional and trait diversity can further explain the factors driving community assembly because they capture different aspects of species ecological roles such as habitat requirements and resource use. To investigate the factors shaping community assembly along the elevational Soutpansberg transect, ants were used as a model study organism because they are widely distributed geographically, ubiquitous and play several important roles in ecosystems. Functional and taxonomic diversity patterns along the elevation, their drivers (seasonality, soil properties, temperature and habitat structure) were examined using a long-term dataset (8 years) collected seasonally. Morphological and physiological traits at a community level are quantified and their relationship to temperature, soil properties and habitat structure modelled. Traits were used to test the size-grain hypothesis, Janzen’s rule and Brett’s rule. Functional and taxonomic diversity had a humped-shaped pattern on the northern and a decreasing pattern on the southern aspect. However, taxonomic diversity did not decrease monotonically on the southern aspect. Functional diversity was mainly related to habitat structure and temperature while taxonomic diversity was explained by seasonality, soil properties and temperature. Functional and taxonomic diversity were positively related at a larger scale but habitat specific at a smaller scale. Taxonomic diversity explained more variation in functional diversity than habitat structure and their interactions. The results supported the size-grain hypothesis and Janzen’s rule but not the Brett’s rule. Patterns in taxonomic and functional diversity mirrored each other but were the result of different mechanisms. Temperature was however important for both measures. Incorporating functional diversity analysis into taxonomic diversity contributed significantly in understanding the different mechanisms underlying community assembly along the Soutpansberg transect. This together with trait responses to environmental variables such as a decrease in size with increased temperature could be used to model the responses of ant communities to global change drivers such as climate and land use change / NRF
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Seasonal abundance and diversity of insects on Sclerocarya birrea and Berchemia discolor in Tshikundamalema, Limpopo Province, South AfricaRamavhale, Rollet Phindulo 21 September 2018 (has links)
MSCAGR (Plant Production) / Department of Plant Production / Indigenous trees play important roles in livelihoods for rural communities. Sclerocarya birrea and Berchemia discolor are indigenous in Africa and are used in rural communities for food and livestock feed, as well as for medicinal and construction purposes. These trees are subject to attack by insects, which can result in lower tree productivity. However, there is no documented information about insects found on both tree species in South Africa. This study investigated the seasonal abundance and diversity of insects on S. birrea and B. discolor in Tshikundamalema Area, Limpopo Province, South Africa. Five trees were selected for each of the two tree species at two sampling sites with different vegetation cover, one site mainly the woodland bushveld while the other site was savannah grasslands. Canopy fogging was used to sample insects. Insect samples were collected at one time point for each of the seasons: summer (February), autumn (May), winter (July) and spring (November). Insects were identified to morphospecies and Simpson’s diversity index was used to compare insect diversity on both trees. Analysis of variance was used to compare the abundance of insects across seasons. The most abundant insects were collected from Coleoptera, followed by Hemiptera, Hymenoptera, Diptera, Lepidoptera and Orthoptera. A total of 3259 insects belonging to the six Orders were collected. All specimens belonging to Coleoptera, Hemiptera and Hymenoptera (3216 in total) were identified to Family level, with a total of 97 morphospecies, belonging to 19 Families. Insects from Diptera, Lepidoptera and Orthoptera were not identified further due to their low numbers. The abundance and diversity of insects were affected by seasons, sites and tree species. The number of insects was high during the spring season with 1782 insects, and summer coming second with 1104 individuals, followed by autumn (238 insects), then winter (92). B. discolor sampled for a great number of insects (1741) as compared to S. birrea (1475). The woodland bushveld (1924 insects) surpassed the savannah grassland (1292 insects) site in terms of the insect numbers sampled. / NRF
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Ground - dwelling arthropods in a biosphere reserve: patterns of diversity and conservation implicationsSchoeman, Colin Stefan 17 May 2019 (has links)
PhD (Zoology) / Department of Zoology / Invertebrate diversity is often neglected in conservation planning initiatives. There are also very
few large-scale diversity studies in Africa, with most studies being restricted to single properties
and spatial extents that are on average not much larger than 30 km2. Here, we provide a
comparative regional assessment, two orders of magnitude larger than usual (30 000 km2), of
epigeal spider, beetle and millipede diversity in the Vhembe Biosphere Reserve – the largest
biosphere reserve in South Africa, and one of the largest in Africa. Firstly we aim to provide an
evaluation of the ability of a range of broad and fine scale predictors to explain the variation in the
diversity of these taxa. Secondly, we measured cross-taxon congruence between our selected
invertebrate taxa and woody vegetation, and within-taxon surrogate efficiency. Thirdly we
evaluated performance of existing and proposed zonations in representing regional invertebrate
species diversity. Finally, to aid in the development of species conservation profiles for lesser
known taxa, annotated check lists are provided for two neglected but dominant epigeal beetle
families, Tenebrionidae and Carabidae. Vegetation units explained the largest and most significant
component of beetle and spider diversity (richness and complementarity of alpha and beta
diversity). Elevation and mean annual temperature played a lesser but still significant role. Overall,
woody vegetation was a poor surrogate, especially for millipedes which have several localized
endemics. The use of higher taxa (genus and tribe in particular) shows the greatest potential for
conservation planning. The current zonation of the Vhembe Biosphere Reserve performed
significantly better than expected in representing invertebrate diversity across the region. The
reality though is that conservation decision-making is largely informed by knowledge on the
distribution of rare, localized or endangered species, for which detailed species inventories are
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required. Though a coarse filter approach is recommended, the augmentation of species level data
provides an extra filter, and contributes to our knowledge of what taxa are in urgent need of
protection. Targeting rare and endangered species in transition zones and developing conservation
assessments and plans for these in relatively small areas would compliment existing conservation
initiatives in the VBR. Annotated check lists ofTenebrionidae of the Vhembe Biosphere suggest
that the family is particularly speciose, the assemblage being comprised of an east African and a
Kalahari element which contributes significantly to local endemicity, and yielded three new
species, one of which is described in the revision to the genus Anaxius, a group largely restricted
to the mountainous areas of Limpopo Province. Carabidae were also found to be speciose, with
the assemblage comprised of a large proportion of stenotypic species. There is support for the use
of vegetation types in conservation plans but these should be augmented with species level
conservation initiatives that target particularly transition and buffer zones. / NRF
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Understanding spatial structuring and the role of domestication in the development of sustainable harvest techniques of Mopane worms (Gonimbrasia belina).Nethanani, Zwannda 20 September 2019 (has links)
MSc (Zoology) / Department of Zoology / Mopane worm (Gonimbrasia belina Westwood) is an indigenous edible insect that periodically has population eruptions in Mopane tree (Colosphermum mopane) dominated vegetation. This insect is a valuable source of food and has become an economic commodity for commercial harvesters. Despite its importance, little is known of the population dynamics of mopane worm. Considerable attention has been paid to the nutritional and social dimensions of mopane worm consumption. However, anecdotal evidence suggests there is a decline in the spatial extent of their distribution due to unsustainable utilization, land transformation, and commercialization. This is paralleled with a decrease of harvest yield, thereby affecting local communities, commercial harvesting operations, and market product availability. Partial domestication of this species may be a way of ensuring sustainable and reliable utilization of this edible insect because it improves natural survival rates. Here I explore mopane worm ecology by mainly focusing on understanding spatial structuring and the role of domestication in the development of sustainable harvest techniques of Mopane worms (G. belina). Spatial structuring of mopane worms was investigated at both a fine (10m x 10m) and medium-scale (1 km2) at sites with and without commercial harvesting. Mopane worm populations were experimentally treated through transplant experiments and manipulating access of predators to 1st – 3rd instar larvae. The role of tree characteristics (height, canopy volume and number of stems) on both spatial and experimental treatments were explored using generalized linear mixed models. Moran’s Eigenvector Maps (MEM’s) were used to represent spatial structures at various scales and the role of soil. Relative to control, seeding of worms was successful in establishing new populations in unoccupied areas while transplant and application of sleeve nets had no significant effect on larval survival. Populations at sites where no harvesting takes place were spatially structured, while this was not true where commercial harvesting takes place. Canopy volume also accounted for egg packets distribution although the relationship was ambiguous. The density of larvae increased with an increase in sodium concentration in soil. Seeding of the population provides a viable option for the sustainable utilization of mopane worms and educating people on how to domesticate mopane worms. This study also highlights that populations of mopane worms are not only clumped in time but also in space and at various spatial scales. / NRF
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